松属素与各种环糊精衍生物的包合作用。

Inclusion complexation of pinostrobin with various cyclodextrin derivatives.

作者信息

Kicuntod Jintawee, Khuntawee Wasinee, Wolschann Peter, Pongsawasdi Piamsook, Chavasiri Warinthorn, Kungwan Nawee, Rungrotmongkol Thanyada

机构信息

Structural and Computational Biology Unit, Department of Biochemistry, Faculty of Science, Chulalongkorn University, Bangkok 10330, Thailand; Starch and Cyclodextrin Research Unit, Department of Biochemistry, Faculty of Science, Chulalongkorn University, Bangkok 10330, Thailand.

Nanoscience and Technology Program, Graduate School, Chulalongkorn University, Bangkok 10330, Thailand.

出版信息

J Mol Graph Model. 2016 Jan;63:91-8. doi: 10.1016/j.jmgm.2015.11.005. Epub 2015 Nov 12.

DOI:10.1016/j.jmgm.2015.11.005

PMID:26709752

Abstract

Pinostrobin (PNS) is one of the important flavonoids and can be abundantly found in the rhizomes of fingerroot (Boesenbergia rotrunda) and galangal (Alpinia galangal and Alpinia officinarum), the herbal basis of Southeast Asian cooking. Similar to other flavonoids, PNS exhibits anti-oxidative, anti-inflammatory and anti-cancer properties. However, this compound has an extremely low water solubility that limits its use in pharmaceutical applications. Beta-cyclodextrin (βCD) and its derivatives, 2,6-dimethyl-βCD (2,6-DMβCD) and the three hydroxypropyl-βCDs (2-HPβCD, 6-HPβCD and 2,6-DHPβCD), have unique properties that enhance the stability and solubility of such low-soluble guest molecules. In the present study, molecular dynamics simulations were applied to investigate the dynamics and stability of PNS inclusion complexes with βCD and its derivatives (2,6-DMβCD, 2,6-DHPβCD, 2-HPβCD and 6-HPβCD). PNS was able to form complexes with βCD and all four of its derivatives by either the chromone (C-PNS) or phenyl (P-PNS) ring dipping toward the cavity. According to the molecular mechanics-generalized Born surface area binding free energy values, the stability of the different PNS/βCD complexes was ranked as 2,6-DHPβCD>2,6-DMβCD>2-HPβCD>6-HPβCD>βCD. These theoretical results were in good agreement with the stability constants that had been determined by the solubility method.

摘要

松属素（PNS）是一种重要的黄酮类化合物，在东南亚烹饪常用的草药高良姜（Boesenbergia rotrunda）以及山姜（Alpinia galangal和Alpinia officinarum）的根茎中含量丰富。与其他黄酮类化合物类似，PNS具有抗氧化、抗炎和抗癌特性。然而，这种化合物的水溶性极低，限制了其在药物应用中的使用。β-环糊精（βCD）及其衍生物2,6-二甲基-β环糊精（2,6-DMβCD）和三种羟丙基-β环糊精（2-HPβCD、6-HPβCD和2,6-DHPβCD）具有独特的性质，能够增强此类低溶性客体分子的稳定性和溶解性。在本研究中，应用分子动力学模拟来研究PNS与βCD及其衍生物（2,6-DMβCD、2,6-DHPβCD、2-HPβCD和6-HPβCD）包合物的动力学和稳定性。PNS能够通过色酮环（C-PNS）或苯环（P-PNS）向腔内浸入的方式与βCD及其所有四种衍生物形成复合物。根据分子力学-广义玻恩表面积结合自由能值，不同PNS/βCD复合物的稳定性排序为2,6-DHPβCD>2,6-DMβCD>2-HPβCD>6-HPβCD>βCD。这些理论结果与通过溶解度法测定的稳定常数高度一致。

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松属素与各种环糊精衍生物的包合作用。

Inclusion complexation of pinostrobin with various cyclodextrin derivatives.

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